JP2018532298A5 - - Google Patents

Description

[0202] The descriptions herein are provided to enable any person skilled in the art to make or use the present disclosure. Various modifications to the present disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the scope of the present disclosure. Thus, the present disclosure should not be limited to the examples and designs described herein, but should be accorded the widest scope consistent with the principles and novel features disclosed herein.
The invention described in the scope of claims at the beginning of the application of the present application will be added below.
[C1] A method for wireless communication in a system that supports operation in a narrow bandwidth region of a system bandwidth, comprising:
Identifying the position of the narrowband region of the system bandwidth as a single resource block within the wideband region of the system bandwidth;
Transmitting an indication of the location of the single resource block within the wideband region of the system bandwidth.
[C2] The method of C1, wherein the indication comprises a total wide bandwidth of the system bandwidth and a resource block index indicating a position of the single resource block.
[C3] The method of C1, wherein the indication comprises one or more common reference signal (CRS) resource elements (RE) or resource block offsets included in the single resource block.
[C4] The method of C1, wherein the indication is transmitted in one or more of a master information block (MIB) or a system information block (SIB).
[C5] decoding a physical broadcast channel (PBCH) in the narrowband region to obtain a first set of bits;
Descramble at least a portion of the first set of bits by sequence to obtain a second set of bits;
Performing a CRC check on the second set of bits;
Determining the number of deployment types and the number of CRS antenna ports based on the result of the CRC check.
[C6] generating a physical broadcast channel (PBCH) signal for transmission of system information related to device discovery in the narrowband region;
Modulating the PBCH signal based at least in part on a demodulation reference signal (DMRS);
Transmitting the modulated PBCH signal in the narrowband region, further comprising the method of C1.
[C7] Modulating the PBCH signal
Selecting a precoding matrix for transmission of the modulated PBCH signal;
Using the selected precoding matrix for other transmissions in the narrowband region in the system bandwidth.
[C8] further comprising transmitting a common reference signal (CRS) in one or more of the modulated PBCH signal in the narrowband region of the system bandwidth, or other transmission, and used in channel estimation The method of C6, wherein the CRS for is one or more receivers.
[C9] The PBCH signal is included in a resource block transmitted in the narrowband region, and the method includes:
Identifying a subframe including the resource block as a multimedia broadcast single frequency network (MBSFN) subframe;
Transmitting the PBCH signal in the MBSFN subframe, further comprising: C6.
[C10] A method for wireless communication in a system that supports operation in a narrow bandwidth region of a system bandwidth includes:
Generating a synchronization signal for device discovery, the synchronization signal comprising two or more orthogonal frequency division multiplexing (OFDM) symbols in a single resource block;
Transmitting the synchronization signal in the narrowband region.
[C11] The method of C10, wherein the synchronization signal comprises one or more of a primary synchronization signal (PSS) or a secondary synchronization signal (SSS).
[C12] The synchronization signal is transmitted in a set of consecutive OFDM symbols, the method comprising:
The method of C10, further comprising transmitting a common reference signal (CRS) using one or more resource elements (RE) that puncture the set of consecutive OFDM symbols.
[C13] identifying one or more OFDM symbols in the single resource block as a CRS OFDM symbol including one or more common reference signal (CRS) resource elements (RE);
Mapping the OFDM symbol including the synchronization signal to a non-CRS OFDM symbol.
[C14] The transmission of the synchronization signal in the narrowband region comprises transmitting the synchronization signal in a subframe preconfigured as a multimedia broadcast single frequency network (MBSFN) subframe. The method described.
[C15] The method of C10, further comprising configuring a subframe that includes the synchronization signal as a multimedia broadcast single frequency network (MBSFN) subframe.
[C16] identifying whether the narrowband region is within the bandwidth of one or more wideband transmissions;
Indicating to one or more receivers whether the narrowband region is within the bandwidth of one or more broadband transmissions.
[C17] The indicating to one or more receivers whether the narrowband region is within the bandwidth of one or more wideband transmissions,
Selecting an OFDM symbol in the single resource block for transmission based at least in part on whether the narrowband region is within the bandwidth of one or more wideband transmissions;
Transmitting the synchronization signal using the selected OFDM symbol. C16.
[C18] The generation of the synchronization signal includes:
Generating a sequence in the time domain or frequency domain based at least in part on a plurality of OFDM symbols in the single resource block;
Generating an interpolated time domain version of the first sequence based at least in part on a set of samples of the first sequence;
Dividing the interpolated time domain version into a plurality of portions each having a duration of one OFDM symbol;
Identifying a subset of samples for each portion corresponding to a cyclic prefix associated with an associated OFDM symbol;
Removing the identified subset of samples for each portion;
Inserting a cyclic prefix into each portion. The method of C10.
[C19] Generating the synchronization signal includes:
The method of C18, further comprising windowing each OFDM symbol in the frequency domain such that only a subset of the OFDM subcarriers carry a synchronization sequence.
[C20] A method for wireless communication in a system that supports operation in a narrow bandwidth region of a system bandwidth includes:
Receiving an indication of the location of a single resource block for narrowband transmission, the single resource block being in a wideband region of the system bandwidth;
Identifying one or more synchronization parameters for receiving the narrowband transmission based at least in part on the indication.
[C21] The identifying the one or more synchronization parameters includes:
The method of C20, comprising generating a common reference signal (CRS) sequence based at least in part on a resource block offset value included in the indication and a cell identification of the transmitter.
[C22] The method of C20, wherein the indication comprises a total wide bandwidth of the system bandwidth and a resource block index indicating a position of the single resource block.
[C23] A method for wireless communication in a system that supports operation in a narrow bandwidth region of a system bandwidth includes:
Identifying the frequency band of the narrowband region of the system bandwidth for transmission of a physical broadcast channel (PBCH) that includes system information related to device discovery;
Selecting a decoding technique for decoding the PBCH based at least in part on the identified frequency band of the narrowband region.
[C24] The method of C23, further comprising determining whether the narrowband region is within a bandwidth of one or more wideband transmissions based at least in part on the identified frequency band. Method.
[C25] The determining whether the narrowband region is within the bandwidth of one or more wideband transmissions is based at least in part on a radio access technology associated with the identified frequency band , C24.
[C26] the determining whether the narrowband region is within the bandwidth of one or more wideband transmissions;
In response to the identified frequency band being located in a radio spectrum allocated for Global System for Mobile (GSM) communications, the narrowband region is the bandwidth of one or more wideband transmissions. Determining that it is outside of
In response to the identified frequency band being located in a radio spectrum allocated for long term evolution (LTE) communication, the narrowband region is within the bandwidth of one or more wideband transmissions. The method of C24, comprising determining that there is.
[C27] Selecting the decoding technique for decoding the PBCH includes
Selecting a common reference signal (CRS) based decoding technique in response to determining that the narrowband region is outside the bandwidth of one or more wideband transmissions;
Selecting a demodulation reference signal (DMRS) based decoding technique in response to determining that the narrowband region is within the bandwidth of one or more wideband transmissions to C26 The method described.
[C28] A method for wireless communication in a system that supports operation in a narrowband region of system bandwidth includes:
Identifying a plurality of subcarriers in the narrowband region of the system bandwidth used to transmit resource blocks;
Identifying a center frequency subcarrier of the plurality of subcarriers used to transmit the resource block;
Modifying one or more other subcarriers of the plurality of subcarriers based at least in part on the identification of the center frequency subcarriers.
[C29] said modifying one or more other subcarriers;
Receiving an indication that the center frequency subcarrier should not be used for data transmission;
Rate matching data transmission around the center frequency subcarrier.
[C30] said modifying one or more other subcarriers;
The method of C29, further comprising power boosting one or more of the plurality of subcarriers other than the center frequency subcarrier.
[C31] said modifying one or more other subcarriers;
The method of C28, comprising applying a frequency shift to one or more of the plurality of subcarriers other than the center frequency subcarrier.
[C32] said modifying one or more other subcarriers;
Generating a digital waveform having an offset corresponding to a frequency shift of half the subcarrier frequency bandwidth;
Adjusting the transmit oscillator based at least in part on the offset of the digital waveform.
[C33] An apparatus for wireless communication in a system that supports operation in a narrow bandwidth region of a system bandwidth is
Means for identifying the position of the narrowband region of the system bandwidth as a single resource block within a wideband region of the system bandwidth;
Means for transmitting an indication of the location of the single resource block within the wideband region of the system bandwidth.
[C34] An apparatus for wireless communication in a system that supports operation in a narrowband region of a system bandwidth is
Means for generating a synchronization signal for device discovery, the synchronization signal comprising two or more orthogonal frequency division multiplexing (OFDM) symbols in a single resource block;
Means for transmitting the synchronization signal in the narrowband region.
[C35] An apparatus for wireless communication in a system that supports operation in a narrowband region of a system bandwidth is
Means for receiving an indication of the location of a single resource block for narrowband transmission, the single resource block being in a wideband region of the system bandwidth;
Means for identifying one or more synchronization parameters for receiving the narrowband transmission based at least in part on the indication.
[C36] An apparatus for wireless communication in a system that supports operation in a narrowband region of a system bandwidth is:
Means for identifying a frequency band of the narrowband region of the system bandwidth for transmission of a physical broadcast channel (PBCH) that includes system information related to device discovery;
Means for selecting a decoding technique for decoding the PBCH based at least in part on the identified frequency band of the narrowband region.
[C37] An apparatus for wireless communication in a system that supports operation in a narrow bandwidth region of a system bandwidth is:
Means for identifying a plurality of subcarriers in the narrowband region of the system bandwidth used to transmit resource blocks;
Means for identifying a center frequency subcarrier of the plurality of subcarriers used to transmit the resource block;
Means for modifying one or more other subcarriers of the plurality of subcarriers based at least in part on the identification of the center frequency subcarriers.

Claims (14)

A method for wireless communication in a system that supports operation in a single resource block narrowband region of system bandwidth, the method comprising:
Identifying the location of the narrowband region of the system bandwidth as a specific single resource block within the wideband region of the system bandwidth;
Transmitting an indication of the location of the particular single resource block within the wideband region of the system bandwidth , wherein the indication is that the narrowband region is within the system bandwidth; Transmitted in one or more of a master information block (MIB) or system information block (SIB) including signaling,
Characterized by the method. The method of claim 1, wherein the indication comprises a total wide bandwidth of the system bandwidth and a resource block index indicating a location of the specific single resource block. The method of claim 1, wherein the indication comprises one or more common reference signal (CRS) resource elements (RE) or resource block offsets included in the particular single resource block. Generating a physical broadcast channel (PBCH) signal for transmission of system information related to device discovery in the narrowband region;
Modulating the PBCH signal based at least in part on a demodulation reference signal (DMRS);
Transmitting the modulated PBCH signal in the narrowband region;
The method of claim 1, further comprising: The modulating the PBCH signal is
Selecting a precoding matrix for transmission of the modulated PBCH signal;
And using the precoding matrix said selected for other transmission in the narrow-band region in the system bandwidth,
The method of claim 4 comprising : Further comprising transmitting a common reference signal (CRS) in one or more of the modulated PBCH signal in the narrowband region of the system bandwidth, or other transmissions, for use in channel estimation The method of claim 4 , wherein the CRS is one or more receivers. The PBCH signal is included in a resource block transmitted in the narrowband region, and the method includes:
Identifying a subframe including the resource block as a multimedia broadcast single frequency network (MBSFN) subframe;
Transmitting the PBCH signal in the MBSFN subframe;
The method of claim 4 , further comprising: A method for wireless communication in a system supporting the operation in the single resource block narrowband region of the system bandwidth, the method comprising:
Receiving an indication of the location of a particular single resource block for narrowband transmission, and the particular single resource block is within a wideband region of the system bandwidth;
Identifying one or more synchronization parameters for receiving the narrowband transmission based at least in part on the indication, wherein the indication is a master information block (MIB) or system information Signaling in one or more of the blocks (SIBs) and that the narrowband region is within the system bandwidth;
Characterized by the method. Said identifying said one or more synchronization parameters comprises:
9. The method of claim 8 , comprising generating a common reference signal (CRS) sequence based at least in part on a resource block offset value included in the indication and a cell identification of a transmitter. The method of claim 8 , wherein the indication comprises a total wide bandwidth of the system bandwidth and a resource block index indicating a location of the single resource block. Decoding a physical broadcast channel (PBCH) in the narrowband region to obtain a first set of bits;
Descramble at least a portion of the first set of bits by sequence to obtain a second set of bits;
Performing a CRC check on the second set of bits;
Determining a deployment type and the number of CRS antenna ports based on the result of the CRC check;
The method of claim 8, further comprising: An apparatus for wireless communication in a system supporting the operation in the single resource block narrowband region of the system bandwidth, the apparatus comprising:
Means for identifying the location of the narrowband region of the system bandwidth as a particular single resource block within a wideband region of the system bandwidth;
Means for transmitting an indication of the location of the particular single resource block within the wideband region of the system bandwidth , wherein the indication is such that the narrowband region is within the system bandwidth Transmitted in one or more of a master information block (MIB) or system information block (SIB) that includes signaling of
Characterized by the device. An apparatus for wireless communication in a system supporting the operation in the single resource block narrowband region of the system bandwidth, the apparatus comprising:
Means for receiving an indication of the location of a particular single resource block for narrowband transmission, and the particular single resource block is within a wideband region of the system bandwidth;
Means for identifying one or more synchronization parameters for receiving the narrowband transmission based at least in part on the indication, wherein the indication comprises a master information block (MIB) or Signaling received in one or more of a system information block (SIB) and that the narrowband region is within the system bandwidth;
Characterized by the device. A computer readable medium comprising instructions that, when executed by a processor of a wireless communication device, cause the wireless communication device to perform the method of any one of claims 1-12.